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Following the presentation of the new theory of gravitation in [1], this paper presents a mathematical derivation for the generation by the gravitational source, of the two central parameters in that theory, gravitational Acceleration Potential and the time dilatation effect. Keywords: Gravitation, Relativity, Special, General, Minkowski, Space-Time, Temporal, Acceleration, Potential,

Following the presentation of a new theory of gravitation in [1], this short paper discusses three further aspects concerning kinetics within the gravitational Space-Time Domain D1. They are (i) the spatial-temporal distribution of the internally generated accelerative force, (ii) the relationship between gravitational and inertial mass, and (iii) kinetic energy.

This paper presents a new relativistic theory of gravitation as an alternative to that represented in Albert Einstein?s General Theory of Relativity. Initially, a new representation of the space-time continuum, designated the Relativistic Domain D1, is created utilising a system of complex linear coordinates.  This Domain is subsequently shown to possess all the gravitational characteristics of the General Theory, and as observed in the Solar System and beyond. A new interpretation of the gravitational phenomenon is thus made, avoiding the problems associated with an induced curvature of the space-time continuum as is required in the General Theory. 

The purpose of this paper is to present a new simplified approach to the mathematical formulation of Albert Einstein?s Special Theory of Relativity. Via the use of a new representation of Hermann Minkowski?s four dimensional ?World? representation of Pseudo-Euclidean Space-Time, and the introduction within it of a new concept, Existence Velocity, the simplified development, along classical analytical lines, of the Special Theory?s relativistic kinematic and kinetic relationships is effected.